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» Authors » Josephus Hulshof

Josephus Hulshof

Explore the profile of Josephus Hulshof including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 7
Citations 194
Followers 0
Related Specialties
Biology
Public Health
Biochemistry
Top 10 Co-Authors
Bas Teusink
Frank J Bruggeman
Robert Planque
Meike T Wortel
Joseph J Heijnen
Tom G OToole
Johan H van Heerden
Daan H de Groot
S A Wahl
Johannes C Hendriks
Published In
PLoS Comput Biol
Math Biosci
Science
Microb Cell
FEBS J
Affiliations
Soon will be listed here.
Recent Articles
1.
Elementary Growth Modes provide a molecular description of cellular self-fabrication
de Groot D, Hulshof J, Teusink B, Bruggeman F, Planque R
PLoS Comput Biol . 2020 Jan; 16(1):e1007559. PMID: 31986156
In this paper we try to describe all possible molecular states (phenotypes) for a cell that fabricates itself at a constant rate, given its enzyme kinetics and the stoichiometry of...
2.
Maintaining maximal metabolic flux by gene expression control
Planque R, Hulshof J, Teusink B, Hendriks J, Bruggeman F
PLoS Comput Biol . 2018 Sep; 14(9):e1006412. PMID: 30235207
One of the marvels of biology is the phenotypic plasticity of microorganisms. It allows them to maintain high growth rates across conditions. Studies suggest that cells can express metabolic enzymes...
3.
Understanding start-up problems in yeast glycolysis
Overal G, Teusink B, Bruggeman F, Hulshof J, Planque R
Math Biosci . 2018 Mar; 299:117-126. PMID: 29550298
Yeast glycolysis has been the focus of research for decades, yet a number of dynamical aspects of yeast glycolysis remain poorly understood at present. If nutrients are scarce, yeast will...
4.
Fatal attraction in glycolysis: how manages sudden transitions to high glucose
Heerden J, Wortel M, Bruggeman F, Heijnen J, Bollen Y, Planque R, et al.
Microb Cell . 2017 Mar; 1(3):103-106. PMID: 28357229
In the model eukaryote , it has long been known that a functional trehalose pathway is indispensable for transitions to high glucose conditions. Upon addition of glucose, cells with a...
5.
Understanding bistability in yeast glycolysis using general properties of metabolic pathways
Planque R, Bruggeman F, Teusink B, Hulshof J
Math Biosci . 2014 Jun; 255:33-42. PMID: 24956444
Unlabelled: Glycolysis is the central pathway in energy metabolism in the majority of organisms. In a recent paper, van Heerden et al. showed experimentally and computationally that glycolysis can exist...
6.
Metabolic states with maximal specific rate carry flux through an elementary flux mode
Wortel M, Peters H, Hulshof J, Teusink B, Bruggeman F
FEBS J . 2014 Jan; 281(6):1547-55. PMID: 24460934
Specific product formation rates and cellular growth rates are important maximization targets in biotechnology and microbial evolution. Maximization of a specific rate (i.e. a rate expressed per unit biomass amount)...
7.
Lost in transition: start-up of glycolysis yields subpopulations of nongrowing cells
van Heerden J, Wortel M, Bruggeman F, Heijnen J, Bollen Y, Planque R, et al.
Science . 2014 Jan; 343(6174):1245114. PMID: 24436182
Cells need to adapt to dynamic environments. Yeast that fail to cope with dynamic changes in the abundance of glucose can undergo growth arrest. We show that this failure is...